Concept of an order of the matrix and applying this concept to know the consistency and solve the system of linear equations. Write the matrix representation of a set of linear equations and analyze the solution of the system of equations. Linear transformation and orthogonal transformation: Eigenvalues and Eigenvectors and their properties: Diagonalization of a matrix; Cayley-Hamilton theorem (without proof); finding the inverse and power of a matrix according to the Cayley-Hamilton theorem; Quadratic forms and nature of quadratic forms.
Students will be able to demonstrate competence and understanding of the concepts found in Mechanics, Harmonic Oscillations, Waves in One Dimension, Wave Optics, Lasers, Fiber Optics and a broad knowledge base in Physics. The main objective of this course is to equip engineering students with an understanding of the scientific method so that they can use the training to advantage in their higher pursuits. In this course, students can gain knowledge about the mechanism of physical bodies by the impact of forces on them, the generation, transmission and detection of the waves, optical phenomena such as interference, diffraction, the principles of lasers and fiber optics.
To determine the material stiffness modulus of a given wire using a torsion pendulum.
LASER
Write a program that prints a multiplication table for a given number and the number of rows in the table. Write a C program to find the sum of the individual digits of a positive integer and test whether the given number is a palindrome. Write a C program to merge two files into a third file (that is, the contents of the first file, followed by those of the second, are placed in the third file).
Write a C program that sorts the given array of integers using selection sort in descending order h. Write a C program that sorts the given array of integers using insertion sort in ascending order i. Necessary principles and concepts of electrochemistry, corrosion and in understanding the problems of water and its treatment.
Explain the concepts of work-energy method and its applications to translation, rotation and plane motion and the concept of vibration.
TRADES FOR EXERCISES
To provide practical experience on the use of various engineering materials, tools, equipment and processes common in the field of engineering. It explains the construction, function, use and application of various work tools, equipment and machinery. Identify and use marking tools, hand tools, measuring equipment and to work to prescribed tolerances.
Practice manufacturing components using workshop trades including plumbing, assembly, carpentry, foundry, house wiring and welding. Identify and apply appropriate tools for various branches of engineering processes including drilling, material removal, measuring, chiseling.
TRADES FOR DEMONSTRATION & EXPOSURE
English lessons should focus on developing skills in vocabulary, grammar, reading and writing. To improve students' language skills in English with emphasis on vocabulary, grammar, reading and writing. Raman Effect” from the prescribed textbook “English for Engineers” published by Cambridge University Press.
Ancient Architecture in India' from the prescribed textbook 'English for Engineers' published by Cambridge University Press. What Should You Be Eating' from the prescribed textbook 'English for Engineers' published by Cambridge University Press. How a Chinese Billionaire Built Her Fortune' from the prescribed textbook 'English for Engineers' published by Cambridge University Press.
The language lab focuses on the production and practice of the sounds of the language and introduces students to the use of English in everyday situations, both in formal and informal contexts.
Computer Assisted Language Learning (CALL) Lab
Interactive Communication Skills (ICS) Lab
Simple Stresses and Strains: Elasticity and Plasticity – Types of Stresses and Strains – Hooke's Law – Stress – Strain Diagram for Mild Steel – Working Stress – Factor of Safety – Lateral Strain, Poisson's Ratio &. Shear force and bending moment: Definition of beam – Types of beams – Concept of shear force and bending moment – S.F and B.M diagrams for cantilever, simply supported and overhanging beams subjected to point loads, u.d.l., uniformly varying loads and combination of these loads – Point opposite deflections – the ratio between S.F., B.M and the level of load on the section of the beam. Melting methods - Crucible melting and cupola operation - Defects in castings; Principles of sluice gates – Requirements – Types of gates, Design of sluice systems – Riser – Function, types of riser and design of riser.
Casting processes – Types – Sand casting, centrifugal casting, injection casting, investment casting, shell casting; Solidification of casting – Solidification of pure metal, Directional solidification. Welding: Classification – Types of welds and welded joints; Welding positions - Gas welding - Typing, oxyfuel cutting - standard time and cost calculations. Understand the laws of thermodynamics and apply them to different types of systems undergoing different processes and to perform thermodynamic analyses.
Introduction: Basic concepts: System, Control volume, Environment, Boundaries, Universe, Types of systems, Macroscopic and Microscopic viewpoints, Concept of Continuum, Thermodynamic Equilibrium, State, Property, Process, Exact & Imprecise Differentials, Cycle – Reversibility – Quasi – static Process, Irreversible Process, Causes of Irreversibility – Energy in State and in Transition, Types, Displacement & Other Forms of Work, Heat, Point and Path Functions, Zero Law of Thermodynamics – Concept of Temperature – Principles of Thermometry – Points of Reference – Const.
Welding Lab
Explain why some material(s) are better to use in a product for given design requirements.
Mechanical Press Working
Composite view drawings for part drawings of the following using conventions and simple drawing relationships. Course Outcomes: The primary objective of the Metallurgy and Materials Science program is to provide undergraduate students with basic knowledge-based properties of materials and their selection and application. Course Objectives: The objective is to learn the fundamental concepts of stress, strain and deformation of solids with application to bars, beams and columns.
Students are introduced to advanced concepts of the flexibility and stiffness method of structural analysis. Students will be able to understand the basic concepts of stress, strain and their relationships based on linear elasticity. The Parliament of India cannot make any law contrary to the fundamental rights enumerated in Part III of the Constitution.
The Parliament of India has been given the power to amend the Constitution under Article 368, but it cannot use this power to change the "basic structure" of the Constitution, which has been adjudicated and explained by the Supreme Court of India in its historic judgments. The Constitution of India was made by borrowing models and principles from many countries including Britain and America. The Constitution of India is not only a legal document but it also reflects the social, political and economic perspectives of the Indian society.
No law can be "static" and hence the Constitution of India has also been amended more than a hundred times. The Indian Judiciary and especially the Supreme Court of India has played a historic role as the guardian of the people. It has not only defended the basic ideals of the Constitution, but also strengthened them through progressive interpretations of the text of the Constitution.
The judicial activism of the Supreme Court of India and its historic contributions have been recognized worldwide and have been gradually achieved. Parliamentary Form of Government in India – Constitutional Powers and Status of the President of India.
C. CIRCUITS
C. CIRCUITS
INTRODUCTION
At this stage, students must prepare for their careers, which may require them to listen to, read, speak and write in English both for their professional and interpersonal communication in the globalized context.
OBJECTIVES
SYLLABUS
MINIMUM REQUIREMENT
SUGGESTED SOFTWARE
Course objective: To apply the principles of thermodynamics to analyze different types of refrigeration and air conditioning systems and to understand the functionality of the main components. Course outcomes: At the end of the course, the student must be able to distinguish between different types of refrigeration systems in terms of application, as well as conventional and non-conventional refrigeration systems. Air cooling: Bell Coleman cycle and Brayton cycle, open and closed air systems - Actual air cooling system - Cooling requirements of aircraft - Air systems - Applications of air cooling, rationale - Types of systems - Problems.
Classify different types of additive manufacturing processes and know their working principle, advantages, limitations, etc. Automated Material Handling: Equipment Types, Functions, Analysis and Design of Material Handling Systems Conveyor Systems, Automated Guided Vehicle Systems. Types of steering mechanisms – Ackerman steering mechanism, Davis steering mechanism, steering gears – types, steering linkages.
Wind energy: Conversion of wind energy, potential, measurement of wind energy potential, choice of site, types of wind turbines, wind farms, wind production and control. Small Hydro Power Plant: Meaning of small hydro power plants and their elements, types of turbines for small hydro power plants, estimation of primary and secondary power. Differentiate between different types of partial differential equations and to know and understand appropriate numerical techniques.
Wettability and bonding, the interface in composites, interactions and types of bonding at the interface, tests for measuring interface strength. Understand the different types of organizational structures and their characteristics, and their advantages and disadvantages. Operations Management: Objectives- product design process- Process selection- Types of production system (Job, batch and mass production), Plant location factors- Urban-Rural site comparison- Types of plant layouts- Design of product layout- Line balancing (RPW) method) Value analysis- Definition types of values- Objectives- Phases of value analysis- Quick diagram.
Work measurement — purpose — survey types — stopwatch methods — steps — key assessment — allowances — standard time calculations — work sampling. Learn the characteristics of different types of production systems and understand the current problems of operations management. Operations management – Definition – Objectives – Types of production systems – historical development of operations management – Current issues in operations management.
Value engineering – objective – types of values – function and cost – product life cycle – steps in value engineering – methodology in value engineering – FAST Diagram – Matrix method.
